Obesity Weighs down Memory through a Mechanism Involving the Neuroepigenetic Dysregulation of Sirt1

Fd, Heyward; Gilliam, David M.; Ma, Coleman; Gavin, Cristin F.; Wang, J; Kaas, Garrett A.; Trieu, Robert B.; Lewis, John W.; Moulden, Jerome; Jd, Sweatt

doi:10.1523/jneurosci.1934-15.2016

Cited by 71 publications

(55 citation statements)

References 62 publications

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“…46 Results demonstrated an increase in Hdac2 gene expression in old animals compared with younger ones, and notably, RV was able to reduce this deacetylase expression in both groups of old mice. In addition to cytosolic deacetylase activity, as we previously pointed out, SIRT1 is also an enzyme participating in histone deacetylation and then in the epigenetic control of gene expression, 47 and RV was able to increase Sirt1 expression in RV-fed old mice.…”

Section: Cognition Inflammation Aging and Resveratrol 13mentioning

confidence: 58%

Metabolic Stress Induces Cognitive Disturbances and Inflammation in Aged Mice: Protective Role of Resveratrol

Palomera-Ávalos

Griñán-Ferré

Izquierdo

et al. 2017

Rejuvenation Research

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Inflammation and oxidative stress (OS) are key points in age progression. Both processes impact negatively in cognition and in brain functions. Resveratrol (RV) has been postulated as a potent antioxidant natural compound, with rejuvenating properties. Inducing a metabolic stress by high-fat (HF) diet in aged C56/BL6 (24 months) led to cognitive disturbances compared with control age mated and with young mice. These changes were prevented by RV. Molecular determinations demonstrated a significant increase in some inflammatory parameters (TNF-a, Cxcl10, IL-1, IL-6, and Ccl3) in old mice, but slight changes in OS machinery. RV mainly induced the recovery of the metabolically stressed animals. The study of key markers involved in senescence and rejuvenation (mitochondrial biogenesis and Sirt1-AMPK-PGC1-a) demonstrated that RV is also able to modulate the changes in these cellular metabolic pathways. Moreover, changes of epigenetic marks (methylation and acetylation) that are depending on OS were demonstrated. On the whole, results showed the importance of integrative role of different cellular mechanisms in the deleterious effects of age in cognition and the beneficial role of RV. The work presented in this study showed a wide range of processes modified in old age and by metabolic stress, weighting the importance of each one and the role of RV as a possible strategy for fighting against.

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Section: Cognition Inflammation Aging and Resveratrol 13mentioning

confidence: 58%

Metabolic Stress Induces Cognitive Disturbances and Inflammation in Aged Mice: Protective Role of Resveratrol

Palomera-Ávalos

Griñán-Ferré

Izquierdo

et al. 2017

Rejuvenation Research

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“…Activation of inflammatory microglia may contribute to the loss of synapses on hippocampal dentate granule neuron dendrites caused by obesity and diabetes (Stranahan et al, 2008b; Hao et al, 2016). The ability of neurons to respond adaptively to bioenergetic and oxidative stress is compromised by excessive energy intake as indicated by reduced expression of BDNF (Stranahan et al, 2008b), PGC-1α (Morselli et al, 2014), and SIRT1 (Heyward et al, 2016). Obese and diabetic rodents exhibit elevated glucocorticoid levels, which can suppress BDNF expression and impair hippocampal synaptic plasticity and neurogenesis (Stranahan et al, 2008a; Wosiski-Kuhn et al, 2014).…”

Section: Metabolic Factors Can Accelerate or Decelerate Brain Agingmentioning

confidence: 99%

Hallmarks of Brain Aging: Adaptive and Pathological Modification by Metabolic States

2018

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During aging, the cellular milieu of the brain exhibits tell-tale signs of compromised bioenergetics, impaired adaptive neuroplasticity and resilience, aberrant neuronal network activity, dysregulation of neuronal Ca2+ homeostasis, the accrual of oxidatively modified molecules and organelles, and inflammation. These alterations render the aging brain vulnerable to Alzheimer’s and Parkinson’s diseases and stroke. Emerging findings are revealing mechanisms by which sedentary overindulgent lifestyles accelerate brain aging, whereas lifestyles that include intermittent bioenergetic challenges (exercise, fasting, and intellectual challenges) foster healthy brain aging. Here we provide an overview of the cellular and molecular biology of brain aging, how those processes interface with disease-specific neurodegenerative pathways, and how metabolic states influence brain health.

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“…45 Changes in SIRT1 expression may be quite dynamic in many of these pathological conditions, such as in the progressive decline in cognitive-memory performance with increasing body-mass index in animals with dietary-induced obesity; however, treatment with a SIRT1-targeted activator, resveratrol, ameliorates much of the hippocampal neuro-degeneration. 46 Alternatively, increased SIRT1-expression levels have been noted in other neurodegenerative diseases, such as Huntington’s disease, which has led to exploratory clinical trials with SIRT1 selective inhibitors, such as Selisistat (EX-527) 47 . 15e Because of the pleiotropic role of SIRT1 in neurodegeneration, there is an ongoing debate in the literature regarding the effectiveness of SIRT1 activators versus inhibitors for the treatment of neurodegeneration.…”

Section: Discussionmentioning

confidence: 99%

Molecular Imaging of Sirtuin1 Expression–Activity in Rat Brain Using Positron-Emission Tomography–Magnetic-Resonance Imaging with [¹⁸F]-2-Fluorobenzoylaminohexanoicanilide

et al. 2018

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Sirtuin 1 (SIRT1) is a class III histone deacetylase that plays significant roles in the regulation of lifespan, metabolism, memory, and circadian rhythms and in the mechanisms of many diseases. However, methods of monitoring the pharmacodynamics of SIRT1-targeted drugs are limited to blood sampling because of the invasive nature of biopsies. For the noninvasive monitoring of the spatial and temporal dynamics of SIRT1 expression−activity in vivo by PET−CT−MRI, we developed a novel substrate-type radio-tracer, [18F]-2-fluorobenzoylaminohexanoicanilide (2-[18F]-BzAHA). PET−CT−MRI studies in rats demonstrated increased accumulation of 2-[18F]BzAHA-derived radioactivity in the hypothalamus, hippocampus, nucleus accumbens, and locus coeruleus, consistent with autoradiographic and immunofluorescent (IMF) analyses of brain-tissue sections. Pretreatment with the SIRT1 specific inhibitor, EX-527 (5 mg/kg, ip), resulted in about a 20% reduction of 2-[18F]BzAHA-derived-radioactivity accumulation in these structures. In vivo imaging of SIRT1 expression−activity should facilitate studies that improve the understanding of SIRT1-mediated regulation in the brain and aid in the development and clinical translation of SIRT1-targeted therapies.

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Obesity Weighs down Memory through a Mechanism Involving the Neuroepigenetic Dysregulation of Sirt1

Cited by 71 publications

References 62 publications

Metabolic Stress Induces Cognitive Disturbances and Inflammation in Aged Mice: Protective Role of Resveratrol

Metabolic Stress Induces Cognitive Disturbances and Inflammation in Aged Mice: Protective Role of Resveratrol

Hallmarks of Brain Aging: Adaptive and Pathological Modification by Metabolic States

Molecular Imaging of Sirtuin1 Expression–Activity in Rat Brain Using Positron-Emission Tomography–Magnetic-Resonance Imaging with [¹⁸F]-2-Fluorobenzoylaminohexanoicanilide

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Obesity Weighs down Memory through a Mechanism Involving the Neuroepigenetic Dysregulation of Sirt1

Cited by 71 publications

References 62 publications

Metabolic Stress Induces Cognitive Disturbances and Inflammation in Aged Mice: Protective Role of Resveratrol

Metabolic Stress Induces Cognitive Disturbances and Inflammation in Aged Mice: Protective Role of Resveratrol

Hallmarks of Brain Aging: Adaptive and Pathological Modification by Metabolic States

Molecular Imaging of Sirtuin1 Expression–Activity in Rat Brain Using Positron-Emission Tomography–Magnetic-Resonance Imaging with [18F]-2-Fluorobenzoylaminohexanoicanilide

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Molecular Imaging of Sirtuin1 Expression–Activity in Rat Brain Using Positron-Emission Tomography–Magnetic-Resonance Imaging with [¹⁸F]-2-Fluorobenzoylaminohexanoicanilide